Charting 8,000 years of Iberian genomic history

Using ancient DNA recovered from over 270 Iberians representing an unprecedented timespan, researchers including David Reich have pieced together an 8,000-year-long genetic history of the Iberian Peninsula. In addition to revealing key events that shaped Iberia's ancient populations, the study also demonstrates the potential for high-resolution ancient DNA records that extend from prehistoric to the present to provide detailed information about the formation of a region's contemporary populations. The study of ancient DNA provides a glimpse into the movements and migrations of ancient peoples as evidenced by the genetic legacies left behind. The Iberian Peninsula, the region encompassing what is now Spain and Portugal, is situated between North Africa, Europe and the Mediterranean. With its long history of interaction with surrounding regions, Iberia provides an ideal opportunity to study the genetic impact of migrations into the European continent from the eastern Mediterranean and North Africa, according to the authors. Iñigo Olalde and colleagues assembled genome-wide data from 271 ancient Iberians, from locations throughout Spain, to create a comprehensive chronology of gene flow into and throughout the region spanning nearly 8,000 years. Olalde et al. extracted the ancient DNA from archaeological human remains previously recovered from a variety of contexts - including a pair of brothers interred together in a mountain-side cave nearly 7,000 years ago. According to the results of their various analyses, the population structure of the region's Mesolithic hunter-gatherers was much more complex than previously thought. The authors also unexpectedly identified early, albeit limited, interaction with North Africa by approximately 2,500 BCE. The results further revealed the tremendous impact of immigrations of people from the Pontic-Caspian steppe to the east; by about 2,000 BCE, nearly 40% of Iberia's ancestry and nearly 100% of the local male population was replaced by people with Steppe ancestry. Interestingly, genetic data combined with linguistics reveal that present-day Basques, who show a large amount of Steppe ancestry, lack evidence of the later admixture events that shaped the rest of Iberia. In a related Perspective, Marc Vander Linden discusses the contentious role of genetics-based methodologies in archaeological research and offers transdisciplinary suggestions on how it can be best implemented. "Like any other revolution, ancient DNA's legacy will not only be measured in light of technological developments, but by its ability to generate meaningful results, including but not limited to admixture events as those documented by Olalde et al.," writes Linden.

Radiocarbon dating and DNA show ancient Puebloan leadership in the maternal lineDiscovering who was a leader, or even if leaders existed, from the ruins of archaeological sites is difficult, but now a team of archaeologists and biological anthropologists, using a powerful combination of radiocarbon dating and ancient DNA, have shown that a matrilineal dynasty likely ruled Pueblo Bonito in New Mexico for more than 300 years.

#517 Life in Plastic, Not FantasticOur modern lives run on plastic. It's in the computers and phones we use. It's in our clothing, it wraps our food. It surrounds us every day, and when we throw it out, it's devastating for the environment. This week we air a live show we recorded at the 2019 Advancement of Science meeting in Washington, D.C., where Bethany Brookshire sat down with three plastics researchers - Christina Simkanin, Chelsea Rochman, and Jennifer Provencher - and a live audience to discuss plastics in our oceans. Where they are, where they are going, and what they carry with them. Related links:...